CN107068035A

CN107068035A - A kind of display methods, display device

Info

Publication number: CN107068035A
Application number: CN201710221304.4A
Authority: CN
Inventors: 代斌; 张小牤; 杨全; 习艳会
Original assignee: BOE Technology Group Co Ltd
Current assignee: BOE Technology Group Co Ltd
Priority date: 2017-04-06
Filing date: 2017-04-06
Publication date: 2017-08-18
Anticipated expiration: 2037-04-06
Also published as: CN107068035B

Abstract

The invention discloses a kind of display methods, display device, in image rendering process, to reduce the consumption of hardware resource.The applicable display panel of display methods is the display panel of BV3 dot structures, including：Receive the corresponding image information of Real rgb pixel structures of input；The type of image to be displayed is determined according to image information, when the type of image to be displayed is different, it is new image information by Image Information Processing to select different image rendering methods；The type of image to be displayed includes literal type and non-legible type；Display panel according to new image information driving BV3 dot structures shows image to be displayed.

Description

A kind of display methods, display device

Technical field

The present invention relates to display technology field, more particularly to a kind of display methods, display device.

Background technology

With the development of Display Technique, the resolution ratio more and more higher of display screen, and there is processing in high-resolution display screen Data volume is big, the problem of transmission is difficult, solves data volume greatly using the display panel of BV3 dot structures in the prior art, passes Defeated difficult the problem of, BV3 dot structures, are as shown in figure 1, red (R) sub-pixel, green (G) sub- picture for being arranged including some arrays Element and blue (B) sub-pixel, in a column direction, the sub-pixel of same color is non-conterminous, and the sub-pixel of odd-numbered line and even number line Do not line up, that is to say, that different rows is not lined up in the display panel of BV3 dot structures, i.e. the original position of adjacent lines " staggering " half of sub-pixel so that in a column direction, each sub-pixel (minority sub-pixels for removing edge) simultaneously with one phase Two sub-pixels of adjacent rows are adjacent, and in the middle of the two sub-pixels, now intersect between the sub-pixel of three kinds of different colours, In the shape of approximate " isosceles triangle ".

And the image information being input at present in the display panel of BV3 dot structures is the image of Real rgb pixel structures Information, Real rgb pixels structure as shown in Fig. 2 include some arrays arrangement R sub-pixels, G sub-pixel and B sub-pixels, On column direction, the sub-pixel of same color is adjacent, and the sub-pixel alignment of odd-numbered line and even number line；And Real rgb pixel knots In structure by six adjacent sub-pixel groups into two the second pixels 21 size and BV3 dot structures in by three adjacent sons The size of one the first pixel 11 of pixel composition is identical.

Because the image information being input in the display panel of BV3 dot structures is the image letter of Real rgb pixel structures Breath, it is therefore desirable to the corresponding image information of Real rgb pixel structures is rendered to BV3 dot structures using image rendering method Corresponding image information, prior art is in render process, no matter the type of the corresponding image to be displayed of image information of input It is word or landscape, personage, carries out image procossing using identical image rendering method.

In summary, prior art is due in render process, identical image wash with watercolours is used to word and landscape, personage Dyeing method, can cause the hardware resource of consumption larger；In addition, the image rendering method that prior art is used can be brought when in display When very thin font is occurred in that in appearance, the problem of font is obscured occurs in the font after processing.

The content of the invention

In view of this, the embodiments of the invention provide a kind of display methods, display device, in image rendering process In, reduce the consumption of hardware resource.

A kind of display methods provided in an embodiment of the present invention, it is adaptable to the display panel of BV3 dot structures, the BV3 pictures Plain structure includes the first sub-pixel that some arrays are arranged, wherein, this method includes：

The corresponding image information of Real rgb pixel structures of input is received, the Real rgb pixels structure includes some Second sub-pixel of array arrangement；

The type of image to be displayed is determined according to described image information, when the type of the image to be displayed is different, choosing It is new image information that different image rendering methods, which are selected, by described image information processing；The type of the image to be displayed includes Literal type and non-legible type；

The display panel of the BV3 dot structures is driven to show the image to be displayed according to the new image information.

By display methods provided in an embodiment of the present invention, the display methods includes：Receive the Real rgb pixel knots of input The corresponding image information of structure；The type of image to be displayed is determined according to image information, when the type of image to be displayed is different, choosing It is new image information that different image rendering methods, which are selected, by Image Information Processing；The type of image to be displayed includes literal type With non-legible type；The last new image information according to after processing drives the display panel of BV3 dot structures to show；With it is existing Technology is in image rendering process, no matter the type of image to be displayed is word or landscape, personage, using identical figure Compared as rendering intent carries out image procossing, the embodiment of the present invention can reduce rendering intent computing in image rendering process Memory consumption, and then reduce the consumption of hardware resource.

It is preferred that it is described when the type of the image to be displayed is different, select different image rendering methods described Image Information Processing is new image information, including：

If the type of the image to be displayed is literal type, according to the first image rendering method by described image information The first image information is processed as, if the type of the image to be displayed is non-legible type, according to the second image rendering method It is the second image information by described image information processing；Wherein：

Described first image rendering intent divides the corresponding gray value of second sub-pixel of adjacent M same colors It is not multiplied by be added after respective weight coefficient and obtains first described in a color identical corresponding with the second sub-pixel this described Corresponding first gray value of sub-pixel；Second image rendering method is by the described second sub- picture of adjacent N number of same color The corresponding gray value of element, which is multiplied by be added after respective weight coefficient respectively, obtains a face corresponding with the second sub-pixel this described Corresponding second gray value of first sub-pixel described in color identical, M, N are the positive integer more than or equal to 2, and M is less than N.

It is preferred that described first image rendering intent is specifically included：By second son of two adjacent same colors The corresponding gray value of pixel be multiplied by respectively after respective weight coefficient be added obtain one it is corresponding with the second sub-pixel this described Corresponding first gray value of first sub-pixel described in color identical；

Second image rendering method is specifically included：By second sub-pixel correspondence of four adjacent same colors Gray value be multiplied by respectively after respective weight coefficient be added obtain one it is identical with the corresponding color of the second sub-pixel this described Corresponding second gray value of first sub-pixel.

It is preferred that during using described first image rendering intent, second sub-pixel of adjacent two same colors Be multiplied by respectively two weight coefficients of corresponding gray value and be 1；

During using second image rendering method, the corresponding ash of second sub-pixel of adjacent four same colors Be multiplied by respectively four weight coefficients of angle value and be 1.

It is preferred that described first image rendering intent includes the first odd-numbered line rendering intent and the first even number line side of rendering Method；Wherein：

The first odd-numbered line rendering intent includes：

Wherein：X is odd number, and y is positive integer, and x represents the line number of the first pixel or the second pixel, y represent the first pixel or The columns of second pixel；

R_xyRepresent to be located at the corresponding gray value of the first red sub-pixel that xth row y is arranged, G_xyRepresent to be located at xth row y The corresponding gray value of the first green sub-pixels of row, B_xyRepresent to be located at the corresponding gray scale of the first blue subpixels that xth row y is arranged Value；

r_xyRepresent to be located at the corresponding gray value of the second red sub-pixel that xth row y is arranged, g_xyRepresent to be located at xth row y The corresponding gray value of the second green sub-pixels of row, b_xyRepresent to be located at the corresponding gray scale of the second blue subpixels that xth row y is arranged Value；

The first even number line rendering intent includes：

B_mn=β₁b_mn+β₂b_m(n+1) B_m(n+1)=β₁b_m(n+2)+β₂b_m(n+3)

R_mn=μ₁r_mn+μ₂r_m(n+1)； R_m(n+1)=μ₁r_m(n+2)+μ₂r_m(n+3)

G_mn=μ₁g_mn+μ₂g_m(n+1) G_m(n+1)=μ₁g_m(n+2)+μ₂g_m(n+3)

Wherein：M is even number, and n is positive integer, and m represents the line number of the first pixel or the second pixel, n represent the first pixel or The columns of second pixel；

R_mnRepresent to be located at the corresponding gray value of the first red sub-pixel that m rows n-th are arranged, G_mnRepresent to be located at m rows n-th The corresponding gray value of the first green sub-pixels of row, B_mnRepresent to be located at the corresponding gray scale of the first blue subpixels that m rows n-th are arranged Value；

r_mnRepresent to be located at the corresponding gray value of the second red sub-pixel that m rows n-th are arranged, g_mnRepresent to be located at m rows n-th The corresponding gray value of the second green sub-pixels of row, b_mnRepresent to be located at the corresponding gray scale of the second blue subpixels that m rows n-th are arranged Value；

β₁、β₂、μ₁And μ₂Represent weight coefficient.

It is preferred that describedβ₁、β₂、μ₁And μ₂Meet：

β₁+β₂=1；μ₁+μ₂=1.

It is preferred that second image rendering method includes the second odd-numbered line rendering intent and the second even number line side of rendering Method；Wherein：

The second odd-numbered line rendering intent includes：

The second even number line rendering intent includes：

B_mn=β₁b_mn+β₂b_m(n+1)+β₃b_m(n+2)+β₄b_m(n+3)

R_mn=μ₁r_mn+μ₂r_m(n+1)+μ₃r_m(n+2)+μ₄r_m(n+3)

G_mn=μ₁g_mn+μ₂g_m(n+1)+μ₃g_m(n+2)+μ₄g_m(n+3)；

B_m(n+1)=β₁b_m(n+1)+β₂b_m(n+2)+β₃b_m(n+3)+β₄b_m(n+4)

R_m(n+1)=μ₁r_m(n+1)+μ₂r_m(n+2)+μ₃r_m(n+3)+μ₄r_m(n+4)

G_m(n+1)=μ₁g_m(n+1)+μ₂g_m(n+2)+μ₃g_m(n+3)+μ₄g_m(n+4)

β₁、β₂、β₃、β₄、μ₁、μ₂、μ₃And μ₄Represent weight coefficient.

It is preferred that describedβ₁、β₂、β₃、β₄、μ₁、μ₂、μ₃And μ₄Meet： β₁+β₂+β₃+β₄=1；μ₁+μ₂+μ₃+μ₄=1.

It is preferred that being calculated by non-linear interpolation methodβ₁、β₂、β₃、β₄、μ₁、μ₂、μ₃And μ₄。

The embodiment of the present invention additionally provides a kind of display device, and the display device is shown using above-mentioned display method.

Brief description of the drawings

Fig. 1 is the structural representation of the display panel of prior art BV3 dot structures；

Fig. 2 is the structural representation of the display panel of prior art Real rgb pixel structures；

Fig. 3 is a kind of display methods flow chart provided in an embodiment of the present invention；

Fig. 4 is the dot structure schematic diagram of display panel provided in an embodiment of the present invention；

Fig. 5 is the corresponding dot structure schematic diagram of the image information being input in the display panel of the embodiment of the present invention；

Fig. 6 illustrates to calculate a sub- grey scale pixel values using four adjacent sub- grey scale pixel values in the embodiment of the present invention Figure；

Fig. 7 is to calculate the four of a sub- grey scale pixel value using adjacent four sub- grey scale pixel values in the embodiment of the present invention Individual neighbor grayscale value Weight Acquisition schematic diagram；

Fig. 8 illustrates to calculate a sub- grey scale pixel values using two adjacent sub- grey scale pixel values in the embodiment of the present invention Figure；

Fig. 9 is to calculate the two of a sub- grey scale pixel value using adjacent two sub- grey scale pixel values in the embodiment of the present invention Individual neighbor grayscale value Weight Acquisition schematic diagram；

Figure 10 is a kind of block diagram of display device provided in an embodiment of the present invention.

Embodiment

The embodiments of the invention provide a kind of display methods, display device, in image rendering process, to reduce hardware The consumption of resource.

In order that the object, technical solutions and advantages of the present invention are clearer, below in conjunction with accompanying drawing the present invention is made into One step it is described in detail, it is clear that described embodiment is only a part of embodiment of the invention, rather than whole implementation Example.Based on the embodiment in the present invention, what those of ordinary skill in the art were obtained under the premise of creative work is not made All other embodiment, belongs to the scope of protection of the invention.

The display methods of specific embodiment of the invention offer is provided below in conjunction with the accompanying drawings.

Each component area size, shape do not react the actual proportions of each part in accompanying drawing, and purpose is schematically illustrate hair Bright content.

As shown in figure 3, the specific embodiment of the invention provides a kind of display methods, it is adaptable to the display of BV3 dot structures Panel, BV3 dot structures include the first sub-pixel that some arrays are arranged, wherein, the display methods includes：

S301, the corresponding image information of Real rgb pixel structures for receiving input, the Real rgb pixels structure bag Include the second sub-pixel of some array arrangements；

S302, the type for determining according to described image information image to be displayed, when the type of the image to be displayed is different When, it is new image information by described image information processing to select different image rendering methods；The class of the image to be displayed Type includes literal type and non-legible type；

S303, according to the new image information display panel of the BV3 dot structures is driven to show described to be shown Image.

The concrete structure of BV3 dot structures is shown in Figure 1 in the specific embodiment of the invention, in the specific embodiment of the invention The concrete structure of Real rgb pixel structures is shown in Figure 2.

Specifically, the specific embodiment of the invention selects different image rendering sides when the type of image to be displayed is different Image Information Processing is new image information by method, including：

By Image Information Processing it is the according to the first image rendering method if the type of image to be displayed is literal type One image information, if the type of image to be displayed is non-legible type, according to the second image rendering method by image information Manage as the second image information；Wherein：

The corresponding gray value of the second sub-pixel of adjacent M same colors is multiplied by respectively by the first image rendering method respectively From weight coefficient after be added obtain a sub-pixel of color identical first corresponding first corresponding with second sub-pixel Gray value；The corresponding gray value of the second sub-pixel of adjacent N number of same color is multiplied by respectively by the second image rendering method respectively From weight coefficient after be added obtain a sub-pixel of color identical first corresponding second corresponding with second sub-pixel Gray value, M, N are the positive integer more than or equal to 2, and M is less than N.

Different image rendering methods are selected according to the different type of image to be displayed in the specific embodiment of the invention, when treating The type of display image be literal type when, according to the first image rendering method by the Image Information Processing received be the first figure As information, when the type of image to be displayed is non-legible type, the image received is believed according to the second image rendering method Breath is processed as the second image information, wherein：First image rendering method is corresponding by the second sub-pixel of adjacent M same colors Gray value be multiplied by be added after respective weight coefficient respectively and obtain a color identical corresponding with second sub-pixel the Corresponding first gray value of one sub-pixel；Second image rendering method is corresponding by the second sub-pixel of adjacent N number of same color Gray value be multiplied by be added after respective weight coefficient respectively and obtain a color identical corresponding with second sub-pixel the Corresponding second gray value of one sub-pixel, M, N are the positive integer more than or equal to 2, and M is less than N；With prior art in image rendering During, either word or landscape, personage carry out image procossing using identical image rendering method and compared, this hair Bright specific embodiment can reduce rendering intent computing memory consumption, and then reduce hardware resource in image rendering process Consumption；In addition, can see to the image viewing after the image rendering of the specific embodiment of the invention, if going out in display content When having showed very thin font, the font after specific embodiment of the invention processing is not in the problem of font is fuzzy, present invention tool Body embodiment can improve the display effect of font, improve the display quality of display panel.

Specifically, the image information in the specific embodiment of the invention is the gray value of image, in the specific embodiment of the invention It is gray value by image information selection, in image rendering method more facilitates, simple, and render the image come to show and can reach Show clear to font, landscape figure image information transition is more natural.

When it is implemented, the first image rendering method of the specific embodiment of the invention is specifically included：It is same by adjacent two The corresponding gray value of the second sub-pixel of one color is multiplied by after respective weight coefficient to be added respectively obtains one and second son Corresponding first gray value of the corresponding sub-pixel of color identical first of pixel；Second image rendering method is specifically included：By phase The corresponding gray value of the second sub-pixel of four adjacent same colors, which is multiplied by be added after respective weight coefficient respectively, obtains one Corresponding second gray value of corresponding with second sub-pixel sub-pixel of color identical first.

Further, when the specific embodiment of the invention uses the first image rendering method, adjacent two same colors Be multiplied by respectively two weight coefficients of the corresponding gray value of second sub-pixel and be 1；During using the second image rendering method, phase Be multiplied by respectively four weight coefficients of the corresponding gray value of the second sub-pixel of four adjacent same colors and be 1.Work as weight Coefficient and for 1 when, then the overall brightness of display panel does not have compared with the overall brightness of original image increases or decreases, can Ensure that display picture does not produce change.

When it is implemented, BV3 dot structures include first red (R) that some arrays are arranged in the specific embodiment of the invention Sub-pixel, the first green (G) sub-pixel and first blue (B) sub-pixel；Real rgb pixels structure is arranged including some arrays Second red (R) sub-pixel, the second green (G) sub-pixel and second blue (B) sub-pixel.Certainly, in actual production process In, the BV3 dot structures in the specific embodiment of the invention can also include the sub-pixel of other colors, such as：Including yellow (Y) Pixel；Real rgb pixels structure in the specific embodiment of the invention can also include the sub-pixel of other colors, such as：Including Huang Color (Y) sub-pixel.

Specifically, the APP information opened on acquisition approach or mobile phone of the specific embodiment of the invention according to image information The type that image to be displayed is judged etc. method is literal type, or non-legible type, when it is implemented, non-legible type bag Landscape and personage are included, building picture etc. can also be included.

Specifically, the first image rendering method includes the first odd-numbered line rendering intent and first in the specific embodiment of the invention Even number line rendering intent；Wherein：

First odd-numbered line rendering intent includes：

First even number line rendering intent includes：

B_mn=β₁b_mn+β₂b_m(n+1) B_m(n+1)=β₁b_m(n+2)+β₂b_m(n+3)

R_mn=μ₁r_mn+μ₂r_m(n+1)； R_m(n+1)=μ₁r_m(n+2)+μ₂r_m(n+3)

G_mn=μ₁g_mn+μ₂g_m(n+1) G_m(n+1)=μ₁g_m(n+2)+μ₂g_m(n+3)

β₁、β₂、μ₁And μ₂Represent weight coefficient.

Further, the weight coefficient in the specific embodiment of the inventionβ₁、β₂、μ₁And μ₂Meet：β₁ +β₂=1；μ₁+μ₂=1, when weight coefficient and for 1 when, the overall brightness of the image that display panel is shown and original image it is whole Body brightness is compared not have and increased or decreased, it is ensured that display picture does not produce change.

Specifically, the second image rendering method includes the second odd-numbered line rendering intent and second in the specific embodiment of the invention Even number line rendering intent；Wherein：

Second odd-numbered line rendering intent includes：

Second even number line rendering intent includes：

B_m(n+1)=β₁b_m(n+1)+β₂b_m(n+2)+β₃b_m(n+3)+β₄b_m(n+4)

R_m(n+1)=μ₁r_m(n+1)+μ₂r_m(n+2)+μ₃r_m(n+3)+μ₄r_m(n+4)

G_m(n+1)=μ₁g_m(n+1)+μ₂g_m(n+2)+μ₃g_m(n+3)+μ₄g_m(n+4)

Further, the weight coefficient in the specific embodiment of the inventionβ₁、β₂、β₃、β₄、μ₁、μ₂、 μ₃And μ₄Meet：β₁+β₂+β₃+β₄=1；μ₁+μ₂+μ₃+μ₄=1, when weight coefficient and for 1 when, display The overall brightness of the image of Display panel does not have compared with the overall brightness of original image to be increased or decreased, it is ensured that display picture Face does not produce change.

The first image rendering method and the second image of specific embodiment of the invention offer are provided below in conjunction with the accompanying drawings The embodiment of rendering intent.

As shown in Figure 4 and Figure 5, will using the first image rendering method when the type of image to be displayed is literal type The corresponding image rendering of Real rgb pixel structures shown in Fig. 5 is into the corresponding image of BV3 dot structures shown in Fig. 4；When treating The type of display image is non-legible type, such as：During for landscape and personage, using the second image rendering method by shown in Fig. 5 The corresponding image rendering of Real rgb pixel structures is into the corresponding image of BV3 dot structures shown in Fig. 4.In Fig. 4 R11, G11 and B11 constitutes first pixel, and R11 represents that the first red sub-pixel being located in the first pixel that the 1st row the 1st is arranged is corresponding Gray value, G11 represents the corresponding gray value of the first green sub-pixels being located in the first pixel that the 1st row the 1st is arranged, and B11 is represented The corresponding gray value of the first blue subpixels in the first pixel arranged positioned at the 1st row the 1st；R12 represents to be located at the 1st row the 2nd row The first pixel in the corresponding gray value of the first red sub-pixel, G12 represent be located at the 1st row the 2nd arrange the first pixel in The corresponding gray value of first green sub-pixels, B12 represents the first blue subpixels being located in the first pixel that the 1st row the 2nd is arranged Corresponding gray value, the rest may be inferred.R21 represents that the first red sub-pixel being located in the first pixel that the 2nd row the 1st is arranged is corresponding Gray value, G21 represents the corresponding gray value of the first green sub-pixels being located in the first pixel that the 2nd row the 1st is arranged, and B21 is represented The corresponding gray value of the first blue subpixels in the first pixel arranged positioned at the 2nd row the 1st, the rest may be inferred.

R11, g11 and b11 constitute second pixel in Fig. 5, and r11 represents to be located in the second pixel that the 1st row the 1st is arranged The corresponding gray value of the second red sub-pixel, g11 represent be located at the 1st row the 1st arrange the second pixel in the second green sub- picture The corresponding gray value of element, b11 represents the corresponding gray value of the second blue subpixels being located in the second pixel that the 1st row the 1st is arranged； R12 represents the corresponding gray value of the second red sub-pixel being located in the second pixel that the 1st row the 2nd is arranged, and g12 represents to be located at the 1st The corresponding gray value of the second green sub-pixels in the second pixel that row the 2nd is arranged, b12 represents to be located at the second picture that the 1st row the 2nd is arranged The corresponding gray value of the second blue subpixels in element, the rest may be inferred.R21 represents to be located in the second pixel that the 2nd row the 1st is arranged The corresponding gray value of second red sub-pixel, g21 represents the second green sub-pixels being located in the second pixel that the 2nd row the 1st is arranged Corresponding gray value, b21 represents the corresponding gray value of the second blue subpixels being located in the second pixel that the 2nd row the 1st is arranged, according to This analogizes.

Specifically, the second image rendering method in the specific embodiment of the invention includes the second odd-numbered line rendering intent and the Two even number line rendering intents：

Second odd-numbered line rendering intent includes：

Wherein：

Second even number line rendering intent includes：

B₂₁=β₁b₂₁+β₂b₂₂+β₃b₂₃+β₄b₂₄ B₂₂=β₁b₂₂+β₂b₂₃+β₃b₂₄+β₄b₂₅

R₂₁=μ₁r₂₁+μ₂r₂₂+μ₃r₂₃+μ₄r₂₄ R₂₂=μ₁r₂₂+μ₂r₂₃+μ₃r₂₄+μ₄r₂₅

G₂₁=μ₁g₂₁+μ₂g₂₂+μ₃g₂₃+μ₄g₂₄ G₂₂=μ₁g₂₂+μ₂g₂₃+μ₃g₂₄+μ₄g₂₅

Wherein：

Specifically, the specific embodiment of the invention is calculated by non-linear interpolation methodβ₁、β₂、β₃、 β₄、μ₁、μ₂、μ₃And μ₄, the specific embodiment of the invention calculated by non-linear interpolation method β₁、β₂、β₃、 β₄、μ₁、μ₂、μ₃And μ₄, it is therefore an objective to so that the image obtained is more smooth, during certain actual design, other methods can also be used Calculateβ₁、β₂、β₃、β₄、μ₁、μ₂、μ₃And μ₄, such as：By linear computational method design factor, such as β₁=β₄=0.2, β₂=β₃=0.3, μ₁=μ₄=0.2, μ₂=μ₃=0.3.

When it is implemented, as shown in Figure 6 and Figure 7, using four pixels (such as：The corresponding pixels of r11, r12 are corresponding The corresponding pixel of pixel, r13 and the corresponding pixels of r14) obtain the Pixel Information for inserting the corresponding pixels of R11, root Calculated according to Fig. 7 curvesβ₁、β₂、β₃、β₄、μ₁、μ₂、μ₃And μ₄,β₁、β₂、β₃、 β₄、μ₁、μ₂、μ₃And μ₄Acquisition methods use Singh (sinc) function.Apart from the more remote point of R11 points distance in Fig. 7 β₁、β₂、β₃、β₄、μ₁、μ₂、μ₃And μ₄Value is smaller, apart from the nearer point of R11 points distance β₁、β₂、β₃、β₄、μ₁、μ₂、μ₃And μ₄Value is bigger, and the arrow that r11, r12, r13 and r14 are pointed in Fig. 7 is representedβ₁、β₂、β₃、β₄、μ₁、μ₂、μ₃And μ₄Size.Wherein, the white point in Fig. 6 represents other pixels Point, Fig. 6 is the schematic diagram obtained according to actual pixel arrangement.

Specifically, the first image rendering method in the specific embodiment of the invention includes the first odd-numbered line rendering intent and the One even number line rendering intent：

First odd-numbered line rendering intent includes：

Wherein：

First even number line rendering intent includes：

B₂₁=β₁b₂₁+β₂b₂₂ B₂₂=β₁b₂₃+β₂b₂₄

R₂₁=μ₁r₂₁+μ₂r₂₂ R₂₂=μ₁r₂₃+μ₂r₂₄

G₂₁=μ₁g₂₁+μ₂g₂₂ G₂₂=μ₁g₂₃+μ₂g₂₄

Wherein：β₁+β₂=1.

μ₁+μ₂=1

When it is implemented, being without being opened from r12 since r13 in R12 formula in above-mentioned first odd-numbered line Rendering algorithms Begin, in order to reach that pixel reduces the effect of half, so as not to influence display effect, other formula are similar.

Specifically, the specific embodiment of the invention is calculated by non-linear interpolation methodβ₁、β₂、μ₁And μ₂, this hair Bright specific embodiment is calculated by non-linear interpolation methodβ₁、β₂、μ₁And μ₂, it is therefore an objective to so that the image obtained is more Smoothly, during certain actual design, it can also be calculated using other methodsβ₁、β₂、μ₁And μ₂。

When it is implemented, as shown in Figure 8 and Figure 9, using two pixels (such as：The corresponding pixels of r11 are corresponding with r12 Pixel) obtain the Pixel Informations of the corresponding pixels of insertion R11, calculated according to Fig. 9 curvesβ₁、β₂、μ₁And μ₂,β₁、β₂、μ₁And μ₂Acquisition methods use Singh (sinc) function.Apart from the more remote point of R11 points distance in Fig. 9β₁、β₂、μ₁And μ₂Value is smaller, apart from the nearer point of R11 points distanceβ₁、β₂、μ₁And μ₂It is worth bigger, Fig. 9 Middle sensing r11 and r12 arrow is representedβ₁、β₂、μ₁And μ₂Size.

Based on same inventive concept, the specific embodiment of the invention additionally provides a kind of display device, and the display device is used The above-mentioned display method that the specific embodiment of the invention is provided is shown that the display device can be：Mobile phone, tablet personal computer, liquid Brilliant TV, Organic Light Emitting Diode (Organic Light Emitting Diode, OLED) TV, notebook computer, number Any product or part with display function such as photo frame, navigator.For other essential compositions of the display device Part is that it will be apparent to an ordinarily skilled person in the art that have, will not be described here.

Specifically, the display device in the specific embodiment of the invention includes the display panel of BV3 dot structures, and, figure As information receiving module, for receiving the corresponding image information of Real rgb pixel structures of input, and image information is sent Give image processing method module；

Image processing method module, the type for determining image to be displayed according to image information, when image to be displayed Type be literal type when, according to the first image rendering method by Image Information Processing be the first image information, when figure to be shown The type of picture be non-legible type when, according to the second image rendering method by Image Information Processing be the second image information, and will First image information and the second image information are sent to drive module；

Drive module, for driving BV3 dot structures according to the first image information received and the second image information Display panel shows image to be displayed.

When it is implemented, as shown in Figure 10, image information receiving module 101 receives the Real rgb pixel structures pair of input The image information answered, and image information is sent to image processing method module 102；Image processing method module 102 is according to connecing The image information received determines the type of image to be displayed, when the type of image to be displayed is literal type, according to the first figure Image Information Processing is the first image information by picture rendering intent, when the type of image to be displayed is non-legible type, according to Image Information Processing is the second image information by the second image rendering method, and the first image information and the second image information are sent out Give drive module 103；Drive module 103 drives BV3 pixels according to the first image information received and the second image information The display panel 104 of structure shows that the specific driving method of drive module 103 is same as the prior art, repeats no more here.

In summary, the specific embodiment of the invention selects different figures according to the different type of the image to be displayed received As rendering intent, when the type of image to be displayed is literal type, according to the first image rendering method by the image received Information processing is the first image information, when the type of image to be displayed is non-legible type, according to the second image rendering method It is the second image information by the Image Information Processing received；With prior art in image rendering process, either word is also It is landscape, personage, carries out image procossing using identical image rendering method and compare, the specific embodiment of the invention is in image wash with watercolours During dye, rendering intent computing memory consumption can be reduced, and then reduce the consumption of hardware resource；In addition, to passing through this hair Image viewing after the image rendering of bright specific embodiment can see, if very thin font is occurred in that in display content, this Font after the processing of invention specific embodiment is not in the problem of font is fuzzy, and the specific embodiment of the invention can improve font Display effect, improve display panel display quality.

Obviously, those skilled in the art can carry out the essence of various changes and modification without departing from the present invention to the present invention God and scope.So, if these modifications and variations of the present invention belong to the scope of the claims in the present invention and its equivalent technologies Within, then the present invention is also intended to comprising including these changes and modification.

Claims

1. a kind of display methods, it is adaptable to the display panel of BV3 dot structures, the BV3 dot structures are arranged including some arrays First sub-pixel of row, it is characterised in that this method includes：

The corresponding image information of Real rgb pixel structures of input is received, the Real rgb pixels structure includes some arrays Second sub-pixel of arrangement；

The type of image to be displayed is determined according to described image information, when the type of the image to be displayed is different, selection is not Described image information processing is new image information by same image rendering method；The type of the image to be displayed includes word Type and non-legible type；

2. display methods according to claim 1, it is characterised in that described when the type of the image to be displayed is different When, it is new image information by described image information processing to select different image rendering methods, including：

If the type of the image to be displayed is literal type, according to the first image rendering method by described image information processing For the first image information, if the type of the image to be displayed is non-legible type, according to the second image rendering method by institute Image Information Processing is stated for the second image information；Wherein：

Described first image rendering intent multiplies the corresponding gray value of second sub-pixel of adjacent M same colors respectively The first sub- picture described in a color identical corresponding with the second sub-pixel this described is obtained to be added after respective weight coefficient Corresponding first gray value of element；Second image rendering method is by second sub-pixel pair of adjacent N number of same color The gray value answered, which is multiplied by be added after respective weight coefficient respectively, obtains a color phase corresponding with the second sub-pixel this described Same corresponding second gray value of first sub-pixel, M, N are the positive integer more than or equal to 2, and M is less than N.

3. display methods according to claim 2, it is characterised in that described first image rendering intent is specifically included：Will The corresponding gray value of second sub-pixel of two adjacent same colors is added after being multiplied by respective weight coefficient respectively To corresponding first gray value of the first sub-pixel described in a color identical corresponding with the second sub-pixel this described；

Second image rendering method is specifically included：By the corresponding ash of second sub-pixel of four adjacent same colors Angle value, which is multiplied by be added after respective weight coefficient respectively, obtains a color identical institute corresponding with the second sub-pixel this described State corresponding second gray value of the first sub-pixel.

4. display methods according to claim 3, it is characterised in that adjacent during using described first image rendering intent Two same colors be multiplied by respectively two weight coefficients of the corresponding gray value of second sub-pixel and be 1；

During using second image rendering method, the corresponding gray value of second sub-pixel of adjacent four same colors Be multiplied by respectively four weight coefficients and be 1.

5. display methods according to claim 3, it is characterised in that described first image rendering intent includes the first odd number Row rendering intent and the first even number line rendering intent；Wherein：

The first odd-numbered line rendering intent includes：

Wherein：X is odd number, and y is positive integer, and x represents the line number of the first pixel or the second pixel, and y represents the first pixel or second The columns of pixel；

R_xyRepresent to be located at the corresponding gray value of the first red sub-pixel that xth row y is arranged, G_xyRepresent to be located at xth row y is arranged the The corresponding gray value of one green sub-pixels, B_xyRepresent to be located at the corresponding gray value of the first blue subpixels that xth row y is arranged；

r_xyRepresent to be located at the corresponding gray value of the second red sub-pixel that xth row y is arranged, g_xyRepresent to be located at xth row y is arranged the The corresponding gray value of two green sub-pixels, b_xyRepresent to be located at the corresponding gray value of the second blue subpixels that xth row y is arranged；

The first even number line rendering intent includes：

B_mn=β₁b_mn+β₂b_m(n+1) B_m(n+1)=β₁b_m(n+2)+β₂b_m(n+3)

R_mn=μ₁r_mn+μ₂r_m(n+1)； R_m(n+1)=μ₁r_m(n+2)+μ₂r_m(n+3)

G_mn=μ₁g_mn+μ₂g_m(n+1) G_m(n+1)=μ₁g_m(n+2)+μ₂g_m(n+3)

Wherein：M is even number, and n is positive integer, and m represents the line number of the first pixel or the second pixel, and n represents the first pixel or second The columns of pixel；

R_mnRepresent to be located at the corresponding gray value of the first red sub-pixel that m rows n-th are arranged, G_mnRepresent to be located at m rows n-th are arranged the The corresponding gray value of one green sub-pixels, B_mnRepresent to be located at the corresponding gray value of the first blue subpixels that m rows n-th are arranged；

r_mnRepresent to be located at the corresponding gray value of the second red sub-pixel that m rows n-th are arranged, g_mnRepresent to be located at m rows n-th are arranged the The corresponding gray value of two green sub-pixels, b_mnRepresent to be located at the corresponding gray value of the second blue subpixels that m rows n-th are arranged；

β₁、β₂、μ₁And μ₂Represent weight coefficient.

6. display methods according to claim 5, it is characterised in that describedβ₁、β₂、μ₁And μ₂Meet：

β₁+β₂=1；μ₁+μ₂=1.

7. display methods according to claim 3, it is characterised in that second image rendering method includes the second odd number Row rendering intent and the second even number line rendering intent；Wherein：

The second odd-numbered line rendering intent includes：

The second even number line rendering intent includes：

B_m(n+1)=β₁b_m(n+1)+β₂b_m(n+2)+β₃b_m(n+3)+β₄b_m(n+4)

R_m(n+1)=μ₁r_m(n+1)+μ₂r_m(n+2)+μ₃r_m(n+3)+μ₄r_m(n+4)

G_m(n+1)=μ₁g_m(n+1)+μ₂g_m(n+2)+μ₃g_m(n+3)+μ₄g_m(n+4)

8. display methods according to claim 5, it is characterised in that describedβ₁、β₂、β₃、β₄、 μ₁、μ₂、μ₃And μ₄Meet：

β₁+β₂+β₃+β₄=1；μ₁+μ₂+μ₃+μ₄=1.

9. the display methods according to claim 6 or 8, it is characterised in that calculated by non-linear interpolation methodβ₁、β₂、β₃、β₄、μ₁、μ₂、μ₃And μ₄。

10. a kind of display device, it is characterised in that shown using the display methods described in claim any one of 1-9.